Multicellular folding boxes



M. l. WILLIAMSON 2,944,718

MULTICELLULARVFOLDING BOXES 4 Sheets-Sheet l July l2, 1950 Filed July 19, 1957 July 12, 1960 M. l. WILLIAMSON MULTICELLULAR FOLDING BOXESl 4 Sheets-'Sheet 2 Filed July 19, 1957 1N VEN TOR.

Marsha/l l. WIYI/'amson l M ATTORNEY v M. l. WILLIAMSON MupTrcEpLuLAR FOLDING BoxEs July 12, .1960

Filed July 19,l 195'?` 4 Sheets-Sheet I5v IIIH l INVENTOR.

Marsha/l I. Williamson BY' f 4 W ATTORNEY July 12, 1960 M. l. WILLIAMSON MULTICELLULAR FOLDING BoxEs 4 Sheets-Sheet 4 Filed July 19, 1957 l J |u' Fig. 7

Fig. 8

IN V EN TOR. Mars/m# l. Williamson M A TTORNEY 2,944,718 MULarCELLULARFoLDnsG Boxus Marshall I.' WilliamsonpNewH-aven, Conn.,

Federal Paper Board Company, Inc., Bogota, NJ., a

corporation of New York .v Y

' ined July 19,'19s1,s1er, 1-1q. 672,901; f7 claims. :(cl. 229;23')

This invention relates to improvements in the construc-` tion of multicellular foldingA boxes used for the'packaging as a single salesunit of plurality of articles, such as cans, bottles, jars, light bulbs, and the like. j Y y Basically, a multicellularfolding box comprisesa botf tom, upright sidewalls anda top orcell panel inwhich a plurality of article receiving cells are formed. The lindividual cells are separated lfrom one another by transv verse web structures, and the articles of merchandise are seated in the cells in such a wayV thatthe side walls engage the articles at vtwo opposite sides,.whereas the vwebs engage the articles at right angles thereto.

In the simplest form of cell, the square cell, ther are only four points, lines, or areas of contact.

hexagonal, This is accomplished by appropriate [configuration of the web portions of the box blank. yThe web portions of the box are articulated to the side walls and comprise, in most instances, substantially triangular panel portions articulated` to the Side walls along their It has Y been proposed to increase the engagement contacts by making the cells polygonal, for example, by making themv ice j Patented July 12, 1h60 the board. Mechanically it is dicult to flatten out the bottom panel because of the relatively narrow width of thepanelportion between the collapsing crease and the proximate bottom fold line. As Va result, a narrow istrip.' Vofthe bottom panel tends to remain at a slightly/'inclined positionwith respect togthetr'ernainder of the bottom panel, lgiving the box a 'somewhat unsightly appearance when viewed from the fend, infthat onev side wall appears taller than the other.v 1

In :thel' packaging of glass jars and tinv cans it is,im`

v portant 'to hold the receptacles tightly in the cells to i prevent rattling. Aptight t s particularly important in boxes designedtogrip'the chime-end of a can bythe bottom edge of the cell walls, thereby locking the cans Vin the box. It is obvious that' a tight iit is critical in such a box. On the other hand, it is equally plain that in spite rof the tightness of the fit it must be possible to insert thecans without difficulty. Also, the entireY bottom edge ofthe cell walls which engages the canv chimes must be equidistant from the bottomipanel in Orderto provide a fr'eliab'le locking edge.V Prior designs, as far as I am aware, have failed to meet these, requirements.

p The present invention provides an improved construc-v tion of'a multicellular box which may be assembled from'V a at collapsed tubular blank, but requires no special collapsing crease in order to fold it at. The invention provides a cell form which may be a perfect polygon, considering the set up box in plan view. In the cells round articles such as cans and jars. are held snugly and securely because all the sides of the polygonl are equidistant from the central axis of the cell in the set up bases. The cell wall forming portionsof the webs, in"

turn, are articulated to the sides of the triangle.

Webs articulated to the side walls" along triangular .portions possess considerable strength, but present problems which arise from the fact that in the formation of the cells the triangles move from a horizontal to a slanted position, thereby drawing theside walls together and narrowing the width of the cells. The narrowing ofthe cells makes it difficult to insert atfended articles, such as cans or bottles into the box.` In distinction, the distance from web to web does not change during assembly of the box. walls and a loose fit between the webs. This is undesirable, since the individual, articles of merchandise are not securely held, rattle and are free to tilt. y

In order to overcome the narrowing of the cells during assembly of the box, it has been proposedto make the top panel of the box wider than the bottom panel,

in anticipation of the narrowing of the cells during assembly. lThis proposalA however leads to other di-V While the formation of cells of .'.equallongi-g tudinal and lateral dimensions islattained,.the box blank culties.

becomes irregular in that it comprisesa wideftoppanel and a narrow bottom panel. v v I It is customary to lfurnish the boxesV to the tradeV as but resists such flattening out because of the stiffnessof;

The result is a tight fit between the side box, even though they are not equidistant in the flat blank.l The improved box in its preferred form incorporates trapezoidal side wallv portions which, somewhat similar to the construction of a mansard roof, assume-,anV

inclined position with respect to the side wall inthe set up box. Substantially triangular cell panel portions rise above the trapezoidal panel portions, and form anY angle with regard thereto, as( does the upper portion of a mansard ,roof with respectto the lower portion.

The various features, structural details and advanf tages of this invention will appear more fully `from the embodiinents of the invention. sides in certain new and original 'features of construc- Y Ydetailed description which follows accompanied by drawings showing,ffor the .purpose of illustration, preferred The `invention also rein which it vrmay be carried out, may be better understood by referring to the following description taken in connection with the accompanying drawings forming a part of it, in which: Y

yFigure l'is a plan view of a at'cut and scored blank from ywhich a multicellular box incorporating the invention may be assembled, the outside blank surface'facing the observer;

Figure 2 is a plan view ofthe-blankof Figure 1 after f a foldingand gluing operation convertingthe'lat blank into a flat collapsed tubular structure;

Figure 3 is a perspective view of the structureof Figure 2 after squaring; l

Figure 4 isa perspective view .of the squared tubular structure of Figure 3 after formation of the cellular structure;

4 with tin cans inserted into the cells;

Figure 6 is a plan view of the cellular box of Figure 4, an end portion being brokenaway;

i sans Figure 5 is an end yview of thel cellular box of Figure apague corresponding parts in the'` seyr'al'gures of the drawings.v The drawings accompanying, and 'forrnirigpart of,fthis l Speeieatenz diseloeeseertain epeeiedetils .off the inveniien fer the-pdrpese 'of exnlgntienoffbreader as 'peetset` the invention, 'butitjis anderst 9d4 theft the, details may be' medided'iu various peetswithout departure from, theprideipleslei. the.' inrentlen, and, that.thedriven`t i 0r .ir.1.1.ai'` be. applied te` ether.' structures. than the. eneshewil.-

"lhelblanlg Afef, Figure 'lV marbeeutaud seeredlin multiple.. from. largerelle or Sheetsef feldable. Sheet ma.- teriaLedeh eg'paperbeerd, .en automatic. euttingand .Creasidgmachines. 'Tlle.,blaul fA ,comprises a base Panel l1.. a Side wall 12aeellpenell3, e` further Side Wall ldand aglue lapA articulated to one another along fold linesA of 'which 16 .may 'b ejtermeda base fold line, y17 and 18' main. feld. linee and. '19 e furtherA baSe. feld line.- Thefeeveiglfeld; linee. greperallelgte ene, another and in the illus.- -treted embpdimentltheside wel-1s 1 2 and 14are ef equal lleigglitllt Sraeed, CellY Cuts 211 extend aeressthe Cell Page113 berend` the berderiugmain feld lineeite the b'edy et.

the. Side` Walle 12' Vand". 1d The eelly ellis. 2l) terminate.. at side cuts` 21 'and v22 in jthe sidewalls 1'2 and 14, respectiyely; 'Intermediate folding'scores 23 and 24 divide the. side, wallsinto lower wall portions 12', 14f andk upper wallrp'or'tions 1'2", 1 4. The intermediate folding scores areparallel to, the main andebase fold lines and determine the location ofthe side cuts 21 and 22` which extend between apex points 25,A 26,1andj2'7, 28,l respectively. The.

apex points may be consideredthe ends of the portions ofgtheiintermediate folding scores 23, Z4, and'also the en ds ofthe sidecuts 21, 22.

The side: cuts 21, 22., may b e straight,4 or they may be eeereel. 2d and the. mainlfeld ,lilies 17 and. .1.8, deligeY maiertrepezeidglpenel. portions 33 andft. These-Panel portions`A are 'articulated n to the ,lower sidewall portions 12. andv 14. along Athe intermediate, folding Seerlesl. and Zed-' and'rnay. assumeja slanted position with respect tothe lower side walljportions.

The cell panel13,comprisesnaplurality o f lengthwise folding scores, three lengthwisevscores 35, 36 and 37 'being shown. The number of these scores is optional. As 4will laterl be seen the number of folding scoresdeterrnines the outlinek of the cell apertures inthe completed box. For example,- thel cells form a lZ-Sidedpolygon if'th'ere are'three lengthwise scores, a 10-sidedpolygon if there are two, an Octagon if there Ais one. arrangementthefscore 36 extends centrally of therp'anel 13-midway between the main, foldvlini 17y and 18;v`v

The intersection of 'the'central scorie 36 with ,the cuts 29 denne central points 50 about which-peripheral folding scories 38, 39, 4l) and` 41 extend. These peripheralscores define the mouths'of the `cell openings in the assembled multicellular box. The angles at which the peripheral scores` extend are optional, although it is preferred gto'y In the illustrated Diagonal auxiliary folding scores 42 and '43 may be provided to facilitate the formation ofthe cell' walls.

Chime apertures 44 and -45 may be provided in the side walls 12 and 14 immediately above the base fold lines 16 and 19. The apertures have upper edges y46 and 47 spaced from the base fold lines 16 and 19, a distance slightly in excess of the axial'dimension, i.e., height, of the can-chime which in conventional cans measures approximately one-eighthof an inch.

Theeblank of- E-iguref.1 may. be.y converted intobox form as follows: i

Adhesive is rst applied toy the glue--lapandthe blank is then'foldedabout thetfoll. lines 18 and 16 to bring the marginal portion ofthe base panel 11 into adhesive engagementwith thefglue lap.

A collapsed flat tubularrstructure A' results. The tubular blank A may be shipped and stored in flat condition andinas?. quickly beconvertedinto multiellular box form byla few,Simple.feldingperations Thisis done as folal with respect tof the, base panel 1,1. The resulting multicellula-i'fstructure A" issh'own in Figure 4.'

In thecompleted multicellular box the trapezoidal panel portions l33, and'34 (of which 34,' are not visible in Figure 4) are inclinedfwithrespect to the side walls 12 and' lil-. Above themajortrap'ezoids 33 and'34 minor trapezoids 48' aiidlf? rise at an angle with respect tothe major trapezoids.V TriangularV paneltportions 51. and 5,2 rise above minor trap ezoids atan angle to the latter. The apexesof the triangles .51j and 52 are joint and lie on the :central score, 36;v

-The diagonal scors42'jand'43 facilitate the down foldingof the` portions of' the cell panel 13v which become upright cell'walls4 in thefinished structure. The edges formedf'by the cuts Zllibecome. the lower edges of the cell walls. These lowerVA edges are equidistant from the base panel 11' and. provide an auxiliary edge or safetyV catch for,A chime-en'd cans, inserted 'into the multicellular structure. i i

Keferring'toflgure 5.; it mayJ be assumed that chime eridcarisvu534 are to be Vpackaged inthe. multicellular box Af'. The can shave abody diameter d and achirne-end dianieterjli).A Agsnugmtting box structure is preferably so constructedthat,thewidthof 'the base panelflil" is substantially equal'to'the body diameter d in which case the can-chimes 354 'protrude rthrough` vtherespective apertures 44Min he sidewalls and are locked b'y ther upper edges 46 ofjthe apertures (see Figure4).l vThe dimension d, the width of tli'e base panehj alsofdeterrnines the width of the cell lpanel 13. In order to be collapsible the width of the cellfpanel'must also bevd," assuming equal height H-ofr the side walls@ Y A' glance atgFiguresA andv 5'l shows that theformation of ltlgie'cell:structure automatically results in the reduc-` tion ofthe distancevbetweenthemainfoldlines`17 and 11Sl to lessQthanf d., i Y v use "off he foldingb'oxjAf" involves twornechanical requirements `which yat first glance `appear contradictory or'irreconcilable, Iniorder to ,h 'oldfcans securely, without rattling, thev can bodies ishouldgbe, held between cell Welle .spegedepafa distance eddelfe. the diameter a' of 'tlregcanJ-body. Onth'eii` otherphandgnitfmust be possible to insertjth'e4 larger chrne-end'offthe -can having la diametrofDin-to the. cell mouth. 'D71 exceeds Val -by about one-eighth oflan inch. Paperboard itself "isrnot elastic to any appreciable degree and cannotbe expanded -for` the-purpose of #inserting af cari and 4thenlbeV contracted after# the canisinSerted.v The-invention however pro.-

traetedsA tions of the` cell' structure below the 'peak 36 proper" (Figure 4) and above the fold lines 23 and 24. The endmost cell having normally a` diameter of-D1 can be enlarged by an amount d1 by tilting the endmost cell wall 55 outwardlyvin the `d-irection of Vthe arrow 456. This tilt vvinvolves a substantially arcuate motion about the apex points 25, 27. A can having a diameter larger than D1 but smaller than vD1 plus d1 can now readily -be inserted into the cell mouth to a level below thepeaks 36. An intermediate cell may also be distended, even though less than the amount d1, by urging the peaks 36 apart. The insertion of the cans is further facilitated by the fact that the distan-ce d1 is` measured-between the fold1 lines which form the corners of the polygon, which distance i is greater than the distance betweeny opposite sides ofthe Polygon- As the can moves 4down into the cell mouth, it must A' next clear the out edges 21 and 22. This is accomplished by temporarilyy increasing the slope of the trapezoidal panels and 34 with respect tothe lower side wall portions 12' and 14. 'Iihis action is illustrated in Figure 4 and results in an enlargement of the normal distance between the edges to a distance D3 suiicient to permit the can-chime to pass.

As soon as the can-chime clears the bottom edge 20 of the ycell walls the box structure by reasonof the inherent resiliency of the paperboard returns to a normal position in which the diameter between the edges 33 and 34 is reduced to D2 which is only slightly more than the diameter d of the can body. D2 is slightly greater than d by reason of the fact that one additional thickness of Y board lies on the inside of the side walls 12 and 14 after folding of the web structure about the diagonal fold lines `29, 30, 31 and 32 (Figure 4). The contraction of the cell opening is aided by the righting of .the endmost cell webs from the tilted funnel-forming position into upright position with respect to the base panel 11. Righting of the cell walls automatically causes opposite apex pointsl 25, 27 and 26, 28 to tbe drawn together. This reduces the slope of the trapezoidal panels 33 and 34 and causes the side walls 12 and 14 to be drawn together until the can `body is snugly-held about -its' diameter d.

During the final phase of the insertion of the-cans into the box structure the side walls-are temporarily bulged out immediately above the chime vapertures 44 and 45 until the can-chimes snap into the apertures.

The inserted cans are firmly held by the edges 46. A

supplementary or safety catch is provided by the bottom edges 20 of the webs which grasp the 4chimes if a can should accidentally slip out of engagement with the edges 46. n

The locking of the canchimes in the apertures 44 is accomplished without 'the gluing or Vstapling` operation required in conventional chime locking folding boxes employing `apertures of the type shown at 44.

A comparison of Figures l land 6 shows that ythe fold I drawn from the chime engaging-apertures 34 in which event the cell edges 20 become operativeras a safety lock. The distensibility of the box structure permits articles of dijferent diameters to be carried in the same box, as

may be desirable in the assembly of combination packages. Referring to Figure 7 it may be assumed that a slightly larger article is to be inserted into the right cell than into the left, the ldifference in size being suicient to present a problem in fitting the chime end into the locking aperture 44; This problem is readily overcome by the provision of ya supplemental slit 46 permitting the wall to are out slightly at the slit when the article is pressed down into seating position. r Whati'sclaim'edisi L s l. A cellular folding rbox structure for therpackaging of articles of substantially cylindrical cross-section, such as cans, bottles, jars, light bulbs and the likethe structu-re comprising, apair of opposite side walls; a base panel between, and articulated to said side walls along parallel base fold lines; a cell panel between, and articulated to said side walls along two parallel main fold lines, each side wall having an. intermediate folding score vextending across it parallel to, and'between, the'respeo .tivebase' and main fold lines, said cell panel having a central longitudinal folding score extending across it equidistant from, and parallel to, said main fold lines,

said cell vpanel having spaced substantially parallel cell cuts in it extending at right angles to said vlongitudinal folding score across and beyond said main fold lines into the body of said side walls, at least as far as said intermediate folding scores, said cell panel further comprising peripheral folding scores forming polygons about central points defined by the intersections of said cell cuts with said central folding score, said polygons including sides extending at an angle of 45 degrees with respect to said' intermediate folding score from said intermediate folding score, said last named sides forming two opposite slanted sides of a trapezoidal panel of which the intermediate folding score and the main fold line form thetwo'other parallel sides, each trapezoidal panelV being inclined with respect to the side Wall to which it'is articulated, further sides of kthe polygon defining substantiallytriangular cell panel portions having the top of the trapezoid as a base, being inclined with respect to the planes of the trapezoidal panels and having an apex at said central foldingscore, the cell panel portion between each cell cut and the respective portion Yof the polygon subtended by said cut being folded into substantially normal position with respect to the base panel, thereby forming a polygonal cell wall whose edge is substantially equidistant from said i base panel at all points.

2. A cellular folding box structure for the packaging Y of cylindrical chime-end cans, yas set forth 'in claim 1, in

which the edge of the cell wall is spaced from the main v panel a distance substantially equalto the thicknessof t the can chime and in which the said polygons are elongated, having a short axis, represented by said central longitudinal folding score, thershort axis being equal to the can diameter, and having a long axis represented by the Vrespective cell cut, the long axis exceeding the length of the short axis by double the distance between the main fold lines and the intermediate folding scores.

' 3. A cellular folding box structure for the pack-aging of articles of substantially cylindrical cross-section, such as cans, bottles, jars, light bulbs, and the `like the structure comprising-a pair of opposite side walls; 'a base panel between, and articulated to said side walls Ialong parallel base foldy lines; a cell panel between, and larticulated to said side walls along two parallel main foldlines,` each side wall having an intermediate folding score extending across it parallel to, and between, the respective base and,V main fold lines, said cell panel having a central longitudinal folding score extending across it equidistant from, and parallel to, said main fold lines, said cell panel hav#rv aca/rms '7 ing spaced susbtantially parallel celltcuts; in it extending atirightfanglesto said longitudinal folding. score-across and ,beyondtsagvid foldlines into: the. body of said sidenwall-s, .at :leasti as; far. as;,said:. intermediate folding scores, said tcellfpanell fanden-'comprisingperipheral fold: ingr. scores: forming. twelve-sided polygons4 about central pointsdefined by the.v intersectionsfofxsaid cutsswithsaid central folding score,` t said` twelve-sidedipolygons;include ing rst pairs .of tsides*1 extendingfiromgsaid intermediate folding score fat nngles-iofi45'degrees, saidlirstfsidesiformn ing two. oppositefslantedasidesfof'faaprimary trapeZo-idal panelf of which: the intermediate folding-zscore.- and; the main fold line form thetworotgherparallelsmeg-teach trapezoidal panel being inclined witirircspectrztdtheside wall to; whichl it-is articulated;4 saidfzpolygonl comprising second-pairsA ofrsidescextendnge. fromcthe ends of the first pair of sidesrat angles .ofgsubstantiallyll,degrees with respect .tosaid rnairrfoldilines,` saidisecond;pairv de.- iining a .secondary trapezoidalpauel Sbetweenthem, and third pairs ofA sidesfextendingfromthe ends. of said; second pairs of sides. totan. apex'point on said central folding score, said vthird pairs: ofi sidesfdening substantiallyY triangular cell panel portions. having the-top. of the sec.- ondary trapezoidal panelas.v a base, and; being-inclined with respect to. tbesplanes offthe-,trapezoidal panels, the

cell panel portion between each cell cut and the respecf' tive portion of the polygon subtended. by said. celljcut being folded into substantiallyy normal position witlnre.- spectA to the base. panel, thereby. formingya twelvefsided cell wall whose edge is:substantially'equidstant from, said base panel. at alltpoints.

4. A cellulari foldingrbox'structure; for the packaging of` articles. of substantially cylindcalforossfsection, such as cans, bottles, jars, lightbulbs, and the like the strucf ture comprising, a pair of opposite sidewalls; a base panel between, and articulated to said'side .walls along `parallel ybase fold lines; a cell panel between, and. articulated to said sidewalls along. two parallel mainrfold lines, each side wall .having an intermediate. foldingscore,v extending across it parallel to, .andbetweem the respective base. and cell fold; lines, said main. panel;having-acentral longitudinal folding score extending. acrossit'equidistantfrom, and parallel to, said main; fold lines,r said, cell vpanelthaving spaced substantially parallel cell cuts.- in it extending at right `angles to saidlongitudinal folding score across and. beyond said main: foldlines intov the body ofv said side Walls at leastV as farassaidintermediate folding scores, saidy cell 'panel further comprisingzperipheral fold: ing scores forming. t,\velve-sidcd polygons Vaboutcentral points delined bythe-intersections ofV-said-cuts with said central folding score, said twelve-sidedpolygons;includ ing first pairs of-fsides extending .from said. intermediate folding score at anglesofAS-degrecs, said lirst. sides form.- ingtwo lopposite--slanted. sides off a maior. trapezoidal panel ofgWh-ich the ,intermediate folding; score andv the main fold* line form'thez otherA two parallel-sides, .said polygonfurther comprisingtsecondpairs ofgssides extending from theendsoftherst 4p airsof'rsidesat yanangl e of substantially 6()V degrees withzrespectpto saidf main fold lines, said secondpairs; of; sides. forming two. opposite slanted` sides of-v a: minor trapezoidal panel abovey said major trapezoidal panel, said minon trapezoidal panel being boundedxb'y said: secondA pairsof'sides, said. main fold line andatop scorexparallelto. the mainzfold line, said topscore connectingythe, ends-of, the. said. second pairsfof; sides-said polygon.furthercornprising third: pairs of sides extending from; theyends ofthe, second pairs of sidesat'anglespf substantially 75 degrees. with respect to said main-y fold.. lineltozan. apex point on the centrallongitudinal folding score, said. third, pairstofrsides land sa-id topscore deningjtriangular-cell panel portionsihay'- ing,`thetopofrthe minori. trapezoidalpanel'as'a.base, the plane. ofthemajorftrapezoidal panels being inclined with respect to the respective side walls;v ther-planeet; said minor trapezoidal panels being4 inclined with-respect' to the planeof ther respective major trapezoidal panel, and said triangular panel y portions `being inclined :with :respect to. the'planes of, the. minor trapezoidal. panels,.the cell panelportion-t,` between. each-i cell cut and 1. the. respective portion ofthe pelygen su-btendedfbyfsaid cellcutV being folded-into. substantially. normal posit-ion with respect to' the base panel, thereby forming a twelve-sided celll wall whose edge.` substantiallyyequidistant; frornisaid base Panel lat `all points.` A

5, A; cellular fold-ing; box structure forthe packaging of, artigclesyof@z substantiallyj cylindrical cross-section, such asscans, ybottles,jars;,lightbulbs and the like,A` the struc-r ture.- comprising apair'ofopposite sidetwalls; a; base panel between,andvarticulated.to saidtside wallsfalong parallel base. fold lines; atcellpanel. between, and artcu-1V lated to said side Walls,` along two parallel-mainV foldj lines, [each side wall having, an intermediate folding score: extend-ing. across it parallel to, and.between,the respective base and main fold lines, said cell. panel hav ing' atleast one longitudinal folding score'parallel to and symmetrical with; regard to said main. foldy lines, said cell panel having. spaced substantially parallel cellcutsl in itextending at( right angles to said main fold lines across and beyond the main fold lines into` theA body of the. side walls` at least as farv as said interme' diatefolding scores, said cell panel. further comprising peripheral folding scores, forming polygons about central points on saidcuts, midway between said main-fold lines, s aidpolygons including sides'extending fromsaid' intermediate folding scores -at angles Aof 45 degrees, said last named sidesformingtwooppositeslanted sidesoffa trapezcidal panel of which the intermediate folding score andthe main fold line form the two other parallel sides, each trapezoidal panel being inclinedwith respect tothe side wall'to which it is articulated, further sides of the polygon defining substantially triangular cell panel'por.- tions having the top of the trapezoidal panel as a base and being inclined `with respect to the plane of the trapef zoidal panel, the cellpanel portion between eachl cell cut and the respective portion of the polygon subtended by said cellV cut beingfolded into substantially normal position with respect'to thebase panel', thereby forming a polygonal cell wall whose edge is substantially equidistant from said base panel at all points.

6. A cellular folding box structure for the; packaging of cylindrical chime-end cans, the structure comprising, a, pair of opposite side walls; a base panelV between,- and articulated to saidside wallsalong parallel base fold'lines; a cell panel between, and articulated to said side wallsv alongv two parallel `main, fold lines, each side wall having an intermediate foldingscore extending across it parallel to, and between, the respective base andA main fold lines, said cell panel having at least one longitudinal folding score-*parallel to and symmetrical with regard to said main fold lines, said, cell panelhaving spaced substantially parallel cell cuts in it extendi ing at-right-angles to said mainfold lines across and beyond the main.; fold. lines into thexbody of the side walls,` at least as .far as said intermediate folding scores, said cell panel further comprising peripheral` folding scores forming polygons about central points onsaid cuts-midway between said main fold lines, said, polygons being elongated, having a long axisrepresented'by the respective cell cut, and a shortl axis, shorter thanrsaid long axis, saidshort axis extending midway between the ends of the respective cell cuts normal to the cuts, said short axis being substantially equal in length to the can diameter, said polygons including sides extending from said intermediate'folding scores at angles of- 45 degrees, saidl last named sides forming two opposite` slanted sides of a trapezoidal panel of whichl the intermediate fold ing scoreandfthe main fold line form. the. two.. other parallel sides, eachirapezoidalpanel being: inclined: with respectto=the -sidef wall to whichtitwis .articulated,.,fur.;

ther sides of the polygon dening substantially triangular cell panel portions having the Vtop ofthe trapezoid as Y lines, said' polygons intermediate folding lscores at angles of 45 degrees,v

a base andT being inclined with respect vtothe plane of l the trapezoidal panel, the cell panel vportion between each cell cut and the respective portion of the polygon as cans, bottles, jars, light bulbs and the like, the struc-V ture comprising, a pair of opposite side Walls; a base panel between, and articulated to said side walls along parallel base fold lines; a cell panel between, and articulated to said side walls-along two Vparallel main foldl lines, each side wall having an intermediate folding score extending across it parallel to, and between, the respective base and main fold lines, said cell panel having at least one longitudinal folding score parallel to and symmetrical with regard to said main fold lines, said cell panel havingspaced substantially parallel cell cuts in it extending at'right angles to said main fold lines across and beyond the main fold lines into the body of the side walls, at least as far as said intermediate folding scores, said cell panel further comprising including sides extending from said said last named sides forming'two oppositev slanted sides of a trapezvoidal panel of which the intermediate folding score and the main fold line form the two other parallel sides, said trapezoidal panel being inclined with respect to the side-Wall to which it is articulated, further sides of the polygon defining substantially triangular cellpanel portions having the top of the trapezoidal panel as 'a base and being inclined with -respect to the plane of the trapezoidal panel, the cell panel portion between leach cell cut and the respective portion of the polygon subtended by said cell cut being folded into peripheral folding scores forming polygons'about central 3 0 points on said cuts midway between said main fold substantially normal position with respect to the base panel, thereby forming a polygonal cell wall whose edge is substantially equidistant from said base panel at all points, said side walls having can chime engaging apertures in them immediately above the base panel and in y line with said cells.

References Cited in the le of this patent UNITED STATES PATENTS Re. 24,233r Goldberg Oct. 30, 1956 2,690,866 Kirby Oct. 5, 1954 2,717,115 Vines Sept. 6, 1955 2,764,284 Arneson Sept. 25, 1956 2,765,073 Murray Oct. 2, 1956 FOREIGN PATENTS Canada Oct. 23, 1951 UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent Nm 2,944,78 Juy l2, 1960 Mershell Williamson It is hereby certified. that error appears in theprinted specification of the above numbered patent requiring correction and that the said Letters Patent should read as taozcreczted below;

Column 1, line 17, before "plurality" insert t ooumn 7, line 34, after "like" insert e comme; column ine 4l, or "cell" read main same line 4l, for "main" read Celi Signed ane sealed this 25th dey of April 1961.

{SE/XL) Attest:

EPtNEST W. SWIDER DAVD L. LADD Attesting Oflcer Commissioner of Patents 

